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#lang racket/base
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(require racket/list)
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(require xml)
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(require (only-in racket/function thunk))
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(require racket/string)
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(require racket/file)
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(require xml/path)
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(require (only-in racket/format ~a ~s ~v))
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(require (prefix-in scribble: (only-in scribble/decode whitespace?)))
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(require (only-in racket/path filename-extension))
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(require (only-in (planet mb/pollen/library/html) inline-tags))
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(require (planet mb/pollen/world))
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(require (planet mb/pollen/readability))
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;(require (planet mb/pollen/hyphenate))
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(define nbsp " ") ; use this for readability in code
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(define lozenge "◊") ; use this instead of escape syntax
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(provide (all-defined-out)
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describe whitespace? xexpr->string xexpr? filter-not flatten
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(all-from-out (planet mb/pollen/readability)))
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(define (hash-ref-or hash key [default #f])
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(if (in? hash key)
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(get hash key)
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default))
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(define (make-meta-hash x)
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(define keys (se-path*/list '(meta #:name) x))
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(define values (se-path*/list '(meta #:content) x))
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(define meta-hash (make-hash))
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;todo: convert this to for/list because map does not guarantee ordering
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; probably want to keep it in sequence
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(map (ƒ(key value) (change meta-hash (as-symbol key) (as-string value))) keys values)
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meta-hash)
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(define (magic-directory? path)
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(and (directory-exists? path)
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(or (ends-with? (path->string path) "requires")
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(ends-with? (path->string path) "compiled")
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)))
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(define (filename-of path)
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(let-values ([(dir filename ignored) (split-path path)])
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filename))
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(define (pollen-script? path)
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(let ([path-string (path->string (filename-of path))])
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(or (starts-with? path-string "pollen_") (starts-with? path-string "pollen-"))))
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(define (racket-file? path)
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(has-ext? path 'rkt))
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(define (pmap-source? path)
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(has-ext? path POLLEN_MAP_EXT))
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(define (template-source? path)
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(starts-with? (path->string (filename-of path)) (~a TEMPLATE_FILE_PREFIX)))
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(define (preproc-source? path)
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(has-ext? path POLLEN_PREPROC_EXT))
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(define (make-preproc-in-path path)
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(add-ext path POLLEN_PREPROC_EXT))
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(define (make-preproc-out-path path)
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(remove-ext path))
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(define (has-preproc-source? path)
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(file-exists? (make-preproc-in-path path)))
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(define (pollen-source? path)
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(has-ext? path POLLEN_SOURCE_EXT))
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(define (make-pollen-source-path thing)
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(add-ext (remove-ext (as-path thing)) POLLEN_SOURCE_EXT))
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(define (has-pollen-source? path)
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(file-exists? (make-pollen-source-path path)))
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(define (insert-subdir path [subdir-in OUTPUT_SUBDIR])
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(let-values ([(dir filename ignored) (split-path path)])
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(when (equal? dir 'relative)
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(set! dir (string->path ".")))
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(letrec ([subdir-name (string->path (~a subdir-in))]
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[subdir (build-path dir subdir-name)])
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(when (not (directory-exists? subdir))
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(make-directory subdir))
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(build-path subdir filename))))
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;;;;;;;;;;;;;;
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; Moved from template.rkt
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;;;;;;;;;;;;;;
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; All from* functions should return a named-xexpr
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(define (from x query)
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; cache x
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(let ([x (put x)])
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; try finding it in metas, if not, find it in main, if not then return false
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(or (from-metas x query) (from-main x query))))
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(define (from-main x query) ; this used to be plain from
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; check results first
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(let* ([x (put x)]
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[results (se-path*/list (list query) x)])
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; if results exist, send back xexpr as output
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(if (not (empty? results))
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`(,query ,@results) ; todo: why use query as tag?
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#f)))
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(define (from-metas x key)
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(let* ([x (put x)]
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[meta-hash (make-meta-hash x)]
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[key (as-symbol key)])
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(if (in? meta-hash key)
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`(value ,(get meta-hash key)) ;todo: why use value as tag?
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#f)))
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(define (put x)
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; handles either xexpr or pollen file as input
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(cond
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; pass through xexpr as is
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; put is optional for xexprs.
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; it's only here to make the idiom smooth.
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[(named-xexpr? x) x]
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; todo: how to externalize pollen main tag into world name?
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[(file-exists? (as-path x)) (dynamic-require x 'main)]
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; also try adding pollen file extension
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; this makes put compatible with map references
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[(let ([x (make-pollen-source-path x)])
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(when (file-exists? x)
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(put x)))]
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[else (error "put: need named xexpr or pollen file, but got" x)]))
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(define (merge x)
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(cond
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[(named-xexpr? x)
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; return content of xexpr.
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; pollen language rules will splice these into the main flow.
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(if (empty? x)
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""
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(let-values([(name attr content) (xexplode x)])
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content))]
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[(string? x) (list x)]))
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#|(define (merge-strings x)
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(when (empty? x) (error "merge-strings got empty x"))
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;todo: filter metas?
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; leaning toward no. Simplest behavior.
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; function is not intended to be used with whole pollen body anyhow.
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(let ([x (merge x)])
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(string-join (filter string? (flatten x)) " ")))|#
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(define (merge-strings x)
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(string-join (filter string? (flatten x)) " "))
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(define (make-html x)
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(if (named-xexpr? x)
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(xexpr->string x)
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(let ([x (as-list x)])
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(when (all xexpr? x)
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(string-join (map xexpr->string x) "")))))
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; generate *-as-html versions of functions
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(define-values (put-as-html merge-as-html merge-strings-as-html)
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(apply values (map (ƒ(proc) (ƒ(x) (make-html (proc x)))) (list put merge merge-strings))))
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(define (as-literal x)
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(set! x (flatten (list x))) ; coerce text or list to new list
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(merge `(literal-thing ,@x)))
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(define (make-url x)
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(if (exists? x)
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(str x ".html")
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"#")) ; funny null url that means "stay here"
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;;;;;;;;;;;;;;;;;;;;;;;;;
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; make these independent of local includes
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(define (map-topic topic . subtopics)
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`(,(string->symbol topic) ,@(filter-not whitespace? subtopics)))
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(define (meta key value)
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`(meta ((name ,(as-string key))(content ,(as-string value)))))
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; scribble's whitespace function misses trailing spaces wrapped in a list
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(define (whitespace? x)
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(cond
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[(list? x) (all scribble:whitespace? x)]
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[else (scribble:whitespace? x)]))
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; remove empty elements
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(define (remove-empty x)
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(cond
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[(list? x) (map remove-empty (filter-not empty? x))]
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[else x]))
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(define (remove-void x)
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(cond
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[(list? x) (map remove-void (filter-not void? x))]
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[else x]))
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; common idiom with lists:
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; if list is empty, return empty
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; otherwise do procedure
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(define (empty/else thing proc)
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(if (empty? thing)
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empty
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(proc thing)))
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; common idiom with files:
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; if the file exists, do procedure with it
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(define (file-exists?/do path proc)
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(if (file-exists? path)
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(proc path)
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#f))
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; simple timer
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(define-syntax-rule (time expr)
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(begin
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(define start-time (current-inexact-milliseconds))
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(define result expr)
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(define stop-time (current-inexact-milliseconds))
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(message "Time for" 'expr "=" (- stop-time start-time))
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result))
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; utilities for working with file extensions
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(define (.+ x) (format ".~a" x))
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(define (get-ext path)
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(bytes->string/utf-8 (filename-extension path)))
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(define (has-ext? path ext)
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(let ([path-ext (filename-extension path)])
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; returns true if f-ext exists, and equals ext, otherwise false
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(and path-ext (equal? (bytes->string/utf-8 path-ext) (~a ext)))))
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(define (remove-ext path)
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(path-replace-suffix path ""))
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(define (add-ext path ext)
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(string->path (string-append (path->string path) (.+ ext))))
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; find all xexpr names within another xexpr
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(define (gather-xexpr-names x)
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(cond
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[(named-xexpr? x)
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(let-values([(name attr content) (xexplode x)])
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(flatten (cons name (map gather-xexpr-names content))))]
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[else empty]))
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; shorthand for define + dynamic require
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(define-syntax-rule (define-from module symbol)
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(define symbol (dynamic-require module 'symbol)))
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; dynamic require or return false if not found
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; allows constructs like:
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; (or (require-now module symbol) "default value")
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(define (require-now module symbol)
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(dynamic-require module symbol (thunk #f)))
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; define & provide in one easy step
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(define-syntax-rule (define/provide name expr ...)
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(begin (define name expr ...)(provide name)))
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; xexpr->html
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(define (xexpr->html x)
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; (string-join (map xexpr->string x)))
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(xexpr->string x))
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(define (html->xexpr . stuff)
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(string->xexpr (string-join stuff "")))
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; do a set of actions on same item
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(define ((tee . procs) thing)
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(apply values (map (ƒ(proc)(proc thing)) procs)))
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; python-style try/except syntax
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(define-syntax-rule (try body (except tests ...))
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(with-handlers (tests ...) body))
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; xexpr shortcut; map tag across items
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(define (map-tag tag-name xs)
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(map (ƒ(x) (list tag-name x)) xs))
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; trim from beginning & end of list
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(define (trim things test)
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(dropf-right (dropf things test) test))
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; trim whitespace from beginning & end of list
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(define (trim-whitespace things)
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(trim things whitespace?))
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; ----------------------------
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; DECODER
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; ----------------------------
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(define (splice-xexpr-content x [acc '()])
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; takes a list and splices top-level sublists into main list
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; used by merge function
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(cond
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[(empty? x) acc]
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[(and (xexpr-content? (car x)) (not (named-xexpr? (car x)))) (splice-xexpr-content (cdr x) `(,@acc ,@(car x)))]
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[else (splice-xexpr-content (cdr x) `(,@acc ,(car x)))]))
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(define (named-xexpr? x)
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; meets basic xexpr contract, and is also a list starting with a symbol
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; todo: rewrite this using match?
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; todo: rewrite this recurively so errors can be pinpointed (for debugging)
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(and (xexpr? x) (list? x) (symbol? (car x))))
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(define (xexpr-attr-list? x)
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(define (attr-pair? x)
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; list with two elements: first element is a symbol, second is a string
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(and (list? x) (= (length x) 2) (symbol? (car x)) (string? (second x))))
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; a list where elements are attr pairs
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(and (list? x) (all attr-pair? x)))
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(define (xexpr-content? x)
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; it's a list whose elements meet xexpr contract
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(and (list? x) (all xexpr? x)))
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(define (xexpr-has-attrs? x)
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(and (named-xexpr? x) (> (length x) 1) (xexpr-attr-list? (second x))))
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(define (make-xexpr name (attr empty) (content empty))
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(when (not (symbol? name)) (error "make-xexpr: need a name, dude"))
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(when (not (xexpr-attr-list? attr))
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(error "make-xexpr: attr must be list of attr pairs"))
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; todo: fix xexpr-content? test so I can use it here
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; (when (not (xexpr-content? content)) content)
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(when (not (list? content)) (error "make-xexpr: content must be a list"))
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(define xexpr `(,name))
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(when (exists? attr) (set! xexpr `(,@xexpr ,attr)))
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(when (exists? content) (set! xexpr `(,@xexpr ,@content)))
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xexpr)
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(define (xexplode x)
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(when (not (named-xexpr? x)) (error (format "xexplode: ~v not a named-xexpr" x)))
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(define-values (name attr content) (values (car x) empty empty))
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(if (xexpr-has-attrs? x)
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(set!-values (attr content) (values (second x) (cddr x))) ; attr comes back as a list of lists
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(set! content (cdr x))) ; content always comes back as a list
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(values name attr content))
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; block is a named expression that's not on the inline list
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; todo: bear in mind that browsers take the opposite view:
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; that only elements on the block list are blocks
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; and otherwise are treated as inline
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(define (block-xexpr? x)
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(and (named-xexpr? x) (not (in? inline-tags (car x)))))
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(define (wrap-paragraph x) ; x is a list containing paragraph pieces
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; if paragraph is just one block-level xexpr
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(if (and (= (length x) 1) (block-xexpr? (car x)))
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(car x) ; leave it
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`(p ,@x))) ; otherwise wrap in p tag
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; wrap initial quotes for hanging punctuation
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; todo: improve this
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; does not handle <p>“<em>thing</em> properly
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(define (wrap-hanging-quotes x) ; x is one paragraph
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(define-values (name attr content) (xexplode x))
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(cond
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[(and (not (empty? content))
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(string? (car content))
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(> (string-length (car content)) 1))
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(let ([new-car
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(letrec ([x (car content)]
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[first (get x 0)]
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[rest (get x 1 'end)])
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(cond
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[(member first '("\"" "“"))
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; this has to be span so that it's explicitly
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; an inline element. If not,
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; things like linebreak detection won't work.
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`(span ((class "dquo")) ,(~a #\“) ,rest)]
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[(member first '("\'" "‘"))
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`(span ((class "squo")) ,(~a #\‘) ,rest)]
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[else x]))])
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(make-xexpr name attr (cons new-car (cdr content))))]
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[(and (exists? content) (named-xexpr? (car content)))
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(make-xexpr name attr (cons (wrap-hanging-quotes (car content)) (cdr content)))]
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[else x]))
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; how a list-item break is denoted: three or more newlines
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(define (list-item-break? x)
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(and (string? x) (regexp-match #rx"^\n\n\n+$" x)))
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; how a paragraph break is denoted: two or more newlines
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(define (paragraph-break? x)
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; (equal? x PARAGRAPH_BREAK) ; obsolete: two newlines only
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(and (string? x) (regexp-match #rx"^\n\n+$" x)))
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; convert single newline to br tag
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; only if neither adjacent tag is a block
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; otherwise delete
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(define (convert-linebreaks x) ; x is list
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(remove-empty
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(for/list ([i (len x)])
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|
|
(cond
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|
|
[(equal? (get x i) LINE_BREAK)
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|
|
(if (none block-xexpr? (list (get x (sub1 i)) (get x (add1 i))))
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|
'(br)
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|
|
'())]
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|
[else (get x i)]))))
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|
|
|
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; find two or more adjacent newlines and bring them together
|
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|
; works on any number of newlines
|
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(define (merge-newlines x)
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(define (newline? x)
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(and (string? x) (equal? "\n" x)))
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|
(define (not-newline? x)
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|
(not (newline? x)))
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|
|
|
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|
(define (merge-newlines-inner x [acc '()]) ; x is list
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|
(if (empty? x)
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|
|
acc
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|
|
(let-values ([(leading-newlines remainder) (splitf-at x newline?)])
|
|
|
(if (not (empty? leading-newlines))
|
|
|
(merge-newlines-inner remainder `(,@acc ,(string-join leading-newlines "")))
|
|
|
(merge-newlines-inner (dropf remainder not-newline?) `(,@acc ,@(takef remainder not-newline?)))))))
|
|
|
|
|
|
(cond
|
|
|
((list? x) (merge-newlines-inner (map merge-newlines x)))
|
|
|
(else x)))
|
|
|
|
|
|
(define (typogrify string)
|
|
|
; make set of functions for replacers
|
|
|
(define (make-replacers query+subs)
|
|
|
(map (ƒ(q+s) (ƒ(str) (regexp-replace* (first q+s) str (second q+s)))) query+subs))
|
|
|
|
|
|
; just store the query strings + replacement strings
|
|
|
(define dashes
|
|
|
; fix em dashes first, else they'll be mistaken for en dashes
|
|
|
; [\\s ] is whitespace + nonbreaking space
|
|
|
'((#px"[\\s ]*(---|—)[\\s ]*" "—") ; em dash
|
|
|
(#px"[\\s ]*(--|–)[\\s ]*" "–"))) ; en dash
|
|
|
|
|
|
(define smart-quotes
|
|
|
'((#px"(?<=\\w)'(?=\\w)" "’") ; apostrophe
|
|
|
(#px"(?<!\\w)'(?=\\w)" "‘") ; single_at_beginning
|
|
|
(#px"(?<=\\S)'(?!\\w)" "’") ; single_at_end
|
|
|
(#px"(?<!\\w)\"(?=\\w)" "“") ; double_at_beginning
|
|
|
(#px"(?<=\\S)\"(?!\\w)" "”"))) ; double_at_end
|
|
|
|
|
|
; todo: is this transformation obsolete due to css ligatures?
|
|
|
; maybe not, because soft hyphens mess up css ligature function.
|
|
|
; \u00AD is a soft hyphen, which might appear in between letters
|
|
|
(define ligatures
|
|
|
'((#px"f\u00AD?i" "fi")
|
|
|
(#px"f\u00AD?f" "ff")
|
|
|
(#px"f\u00AD?l" "fl")
|
|
|
(#px"f\u00AD?f\u00AD?i" "ffi")
|
|
|
(#px"f\u00AD?f\u00AD?l" "ffl")))
|
|
|
|
|
|
; put replacers in desired order here
|
|
|
(define replacers (make-replacers (append dashes smart-quotes)))
|
|
|
; compose goes from last to first, so reverse order
|
|
|
; ((apply compose1 hyphenate-text-soft (reverse replacers)) string))
|
|
|
((apply compose1 (reverse replacers)) string))
|
|
|
|
|
|
|
|
|
; find the last word space and replace it with a nonbreaking space
|
|
|
; doesn't work on weirdo cases that need backtracking, like:
|
|
|
; (define t4 '(p "hello from all the freaks" "at the " (em "factory.")))
|
|
|
; but cures enough problems to be worthwhile.
|
|
|
|
|
|
(define (nonbreaking-last-space x)
|
|
|
(define nbsp #\ ) ; use an Ø if you want to make the results visible
|
|
|
(define minimum-word-length (add1 5)) ; add1 to account for final punctuation
|
|
|
; todo: parameterize this, as it will be different for each project
|
|
|
(define tags-to-pay-attention-to '(p aside)) ; only apply to paragraphs
|
|
|
|
|
|
(define (replace-last-space str)
|
|
|
(if (in? str #\space)
|
|
|
(let ([reversed-str-list (reverse (string->list str))])
|
|
|
(define-values (last-word-chars other-chars)
|
|
|
(splitf-at reversed-str-list (λ(i) (not (eq? i #\space)))))
|
|
|
(list->string (reverse (append last-word-chars
|
|
|
; OK for long words to be on their own line.
|
|
|
(if (< (len last-word-chars) minimum-word-length)
|
|
|
; first char of other-chars will be the space, so use cdr
|
|
|
(cons nbsp (cdr other-chars))
|
|
|
other-chars)))))
|
|
|
str))
|
|
|
|
|
|
(define (find-last-word-space x) ; recursively traverse xexpr
|
|
|
(cond
|
|
|
[(string? x) (replace-last-space x)]
|
|
|
[(named-xexpr? x)
|
|
|
(let-values([(name attr content) (xexplode x)])
|
|
|
(if (> (length content) 0) ; content is list of xexprs
|
|
|
(let-values ([(all-but-last last) (split-at content (sub1 (length content)))])
|
|
|
(make-xexpr name attr `(,@all-but-last ,(find-last-word-space (car last)))))
|
|
|
x))]
|
|
|
[else x]))
|
|
|
|
|
|
(if (in? tags-to-pay-attention-to (car x))
|
|
|
(find-last-word-space x)
|
|
|
x))
|
|
|
|
|
|
(define (prep-paragraph-flow x)
|
|
|
(convert-linebreaks (merge-newlines (trim-whitespace x))))
|
|
|
|
|
|
(define (map-xexpr-content proc x #:only [only-proc (ƒ(x) x)])
|
|
|
; why map and not apply? Because map guarantees a list of the same length.
|
|
|
; whereas apply does not. So it works as an implied constraint.
|
|
|
(if (named-xexpr? x)
|
|
|
(let-values([(name attr content) (xexplode x)])
|
|
|
(make-xexpr name attr (map (ƒ(x) (if (only-proc x) (proc x) x)) content)))
|
|
|
(error "map-xexpr-content: Input is not a named xexpr and has no content:" x)))
|
|
|
|
|
|
|
|
|
; Main decode function
|
|
|
(define (decode x)
|
|
|
(define (&decode x)
|
|
|
(cond
|
|
|
[(named-xexpr? x)
|
|
|
(let-values([(name attr content) (xexplode x)])
|
|
|
(define decoded-x (make-xexpr name attr (&decode content)))
|
|
|
(if (block-xexpr? decoded-x)
|
|
|
; add nonbreaking-last-space to the next line when ready
|
|
|
(wrap-hanging-quotes (nonbreaking-last-space decoded-x)) ; do special processing for block xexprs
|
|
|
decoded-x))]
|
|
|
[(xexpr-content? x) ; a list of xexprs
|
|
|
(let ([x (prep-paragraph-flow x)])
|
|
|
(map &decode (if (any paragraph-break? x) ; need this condition to prevent infinite recursion
|
|
|
(map wrap-paragraph (splitf-at* x paragraph-break?)) ; split into ¶¶
|
|
|
x)))]
|
|
|
[(string? x) (typogrify x)]
|
|
|
[else x]))
|
|
|
|
|
|
(define (stringify x) ; convert numbers to strings
|
|
|
(cond
|
|
|
[(list? x) (map stringify x)]
|
|
|
[(number? x) (~a x)]
|
|
|
[else x]))
|
|
|
|
|
|
(let* ([x (stringify x)]
|
|
|
[x (trim-whitespace x)])
|
|
|
(if (named-xexpr? x)
|
|
|
(&decode x)
|
|
|
;todo: improve this error message, more specific location
|
|
|
; now, it just spits out the whole defective content
|
|
|
(error (format "decode: ~v not a full named-xexpr" x)))))
|
|
|
|
|
|
|
|
|
(define (splitf-at* pieces test)
|
|
|
; split list into list of sublists using test
|
|
|
(define (splitf-at*-inner pieces [acc '()]) ; use acc for tail recursion
|
|
|
(if (empty? pieces)
|
|
|
acc
|
|
|
(let-values ([(item rest)
|
|
|
(splitf-at (dropf pieces test) (compose1 not test))])
|
|
|
(splitf-at*-inner rest `(,@acc ,item)))))
|
|
|
(splitf-at*-inner (trim pieces test)))
|
|
|
|
|
|
(define (make-missing-source-files map-xexpr)
|
|
|
; use cdr to omit body tag
|
|
|
(define source-names (map (ƒ(x) (add-ext (string->path (as-string x)) POLLEN_SOURCE_EXT)) (flatten (cdr map-xexpr))))
|
|
|
(define (make-source-if-missing x)
|
|
|
(if (not (file-exists? x))
|
|
|
(begin
|
|
|
(display-to-file MISSING_FILE_BOILERPLATE x)
|
|
|
(format "Created file: ~a" x))
|
|
|
(format "Already exists: ~a" x)))
|
|
|
(display (string-join (map make-source-if-missing source-names) "\n")))
|
|
|
|